DE2408994A1 - COLOR TUBE WHICH THE ELECTRON BEAM CANNONS ARE ARRANGED ON A STRAIGHT LINE - Google Patents

Description

Pauntanwilt · 2 4 O δ 9 9 A

Dr. Ing.H. Negendantc DIpI. Ing. H. Haudc - DIpI. Phy «. W. Schmftz DIpJ. Ing.E. Grealfs - DIpI. Ing. W. W * hn «rt

t Munich 2, Mozartstra ·· 21 Hitachi Limited Telephone 531 OSM

5-1,1-chome, Marunouchi

Chiyoda-ku, Tokyo February 22, 1974

Japan Legal File M-3oo3

Color picture tube in which the electron guns are arranged on a straight line.

The invention relates to a color picture tube with a rectilinear Arrangement of the electron beam guns and in particular on the structure of the pole pieces with which the dynamic convergence using a deflecting magnetic field at the rear end of a Deflection yoke for scanning the electron beams can be easily adjusted.

but with such a color picture tube in which no field correction is provided by pole pieces, the grid of the three electron beams on the edge of the luminescent screen do not generally coincide. In particular, the deflection sensitivity of the electron beam from the center electron beam gun compared to the field to the vertical steering is smaller than that of the outer electron beam guns originating electron beams. Such a phenomenon is caused by the characteristic of the deflection yoke. Under these In some circumstances it is necessary for dynamic convergence through an outer circle both in the horizontal and in to worry about the vertical direction.

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For the static convergence in such a color picture tube is known to be the middle electron beam with the aid of a magnetic shield held stationary, the outer electron beams cUxh the magnetic field of a magnet for the stati see convergence shifting so that the central electron beam comes to coincide with the external electron beams. Since it is necessary to keep the entire length of the color picture tube as short as possible, but in reality overlap the magnetic field for the static convergence and the deflection field at the posterior ji End of the deflection yoke each other. Because of this, the shielding of the central electron beam from the field for the static convergence also part of the fields for the vertical and Horizontal deflection shielded so that the grid of the central electron beam is shifted to the center of the fluorescent screen. With In other words, the deflection sensitivity of the medium electron beam decreases as compared with the case where the electron beam is not magnetically shielded in either the horizontal or vertical directions. If under these conditions To ensure dynamic convergence, it would be necessary to consider a stream with an asymmetrical waveform to use the direction of horizontal deflection of the two outer electron beams. Furthermore, it would be necessary to have a to provide complex circuitry for dynamic convergence of the deflection sensitivity of the mean electron beam for the vertical deflection increases or the deflection sensitivity of the two outer electron beams decreases.

In order to solve these problems, the Japanese patent

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registration no. 1o9411 / 1972 proposed an improved structure. There are two arcuate pole pieces, the opposite ends of which are inclined outward, at a point near the front one End of the three electron guns arranged in a straight line on the opposite sides of the central electron gun and provided in a substantially horizontal direction perpendicular to the axis of the color picture tube. There is also another pole piece with essentially the same configuration as the first-mentioned pole pieces above the electron beam guns on the opposite side the sides arranged symmetrically to one of the first-mentioned pole pieces. With this structure, this can affect the two outer electron beams near the pole pieces acting field for the vertical deflection can be reduced compared to the case in which no Pole piece is used, and that on the central electron beam

Acting suffering for the vertical deflection can then be compared to j are also amplified so that the difference in the vertical deflection sensitivity compensated and the difference in the horizontal deflection sensitivity caused by the magnetic shielding is turned off.

However, even with this improved structure, the differences can insufficient in the vertical and horizontal deflection sensitivities be compensated. There are also the pole pieces arranged at the outer ends of the electron beam guns on both sides weaken the field for the horizontal, dynamic convergence of the two outer electron beams cannot be satisfactory Convergence can be obtained, and the electric power passed by the external convergence circuit also increases _ .. __ .. - -4-

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In addition, the structure of the fastening devices for the Pole shoes complicated and extensive, so that a large space is required for installation.

j Therefore, the invention is based on the object of a color picture tube to create of the type mentioned, in which for the static and the dynamic convergence in the same plane and the dynamic convergence can be easily adjusted.

In addition, through a pole piece arrangement in the color picture tube Compensation for vertical dynamic convergence is unnecessary, and a current with a symmetrical waveform for the dynamic convergence of the two outer electron beams in the horizontal direction can be used.

Furthermore, the pole shoe arrangement according to the invention should cover the fields for the static and dynamic convergence of the two outer electron beams.

Finally, the construction and attachment of the pole pieces should be simple.

The object on which the invention is based is achieved with the features solved in the main claim.

The invention will now be explained in more detail with reference to the accompanying figures. They represent:

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Fig. 1 schematically shows a part of a color picture tube with three straight lines arranged electron beam cannons,

Fig. 2 typical grid when no pole piece is used,

Fig. 3 typical grid in the case of a magnetic shielding of the medium electron beam gun,

Fig. 4 is a perspective view of an embodiment of the invention Pole shoes,

FIG. 5 shows a cross section through an arrangement of the pole shoes in FIG. 4,

6 shows a field line profile when using the arrangement according to the invention,

7 shows those occurring in the color picture tube according to the invention Grid and

8 shows a diagram for explaining the invention.

In Fig. 1, showing the structure of a deflection of a color picture tube having three electron guns in in-line arrangement of the Elektronens trahlkanonen G ,,> G and B _D outgoing electron Bp ₁ B ₁₃ B, respectively, _n by a convergence adjusting device 1 and then deflected by a deflection yoke 2 for scanning the entire surface of a fluorescent screen (not shown) of the color picture tube. Of course, the convergence adjusting device 1 has an adjusting device for dynamic convergence and an adjusting device for static convergence, which are arranged in the same plane. Since the convergence device 1 and the deflection yoke 2 are arranged close to one another, the pole pieces located practically in the same plane as the convergence device 1 (not

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shows) both the intricate effect of the magnetic flux generated by the deflection yoke and the magnetic fluxes for dynamic and static convergence. In particular, when setting the static convergence, the middle electron beam B _{R will be moved} by the disturbance of the magnetic flux to create the static convergence when attempting to make the electron beam B _ß or B _G collide with the middle electron beam B _{n on one side} so that it is difficult to adjust.

2 shows a lack of convergence of the electron beams B, G and R for the respective colors at the edge of the phosphor screen, with no pole piece being used for the field correction, so that the effect of the deflection yoke can be seen. As shown in this figure, the vertical direction deflection of the red electron beam R is insufficient, so that the red electron beam R is incident against the blue electron beam B and the green electron beam G inside the screen. The red electron beam R is located between the blue electron beam B and the green electron beam G in the horizontal direction. With the grid states of the electron beams as shown in Fig. 2, in the case of magnetic shielding (dashed line in Fig. 3) to avoid the disturbance caused by the magnetic flux for the static convergence of the mean electron beam R, the disturbances from the electrons tr Ah oil cannons G _ß and G-, which would make it easier to adjust. But as indicated by the grid on the phosphor screen in Fig. 3, it will be at the edge of the screen

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the grid of the red electron beam R towards the center of the screen shift, making the adjustment of convergence with the other electron beams B and G difficult.

An embodiment of the invention will now be based on FIGS. 4 and 5. The pole piece arrangement according to the invention for correction of the magnetic field has a first pair of pole piece segments 3 and a second pair of pole piece segments 6. Each pole piece 3 is concave and has a central, flat section 3a and sections 3b inclined thereto on both sides. Each Pole shoe segment 6 has an arcuate section 6a and a diametrically extending from the center of the arcuate section 6a, flat web 6b. In order to obtain a low magnetic resistance, the pole shoe segments 3 and 6 consist of a material of high permeability, e.g. made of Permalloy. Accordingly, it is necessary to form the pole shoe segments 3 and 6 in one piece, so that no air gap or a region of high magnetic resistance between the respective sections 3a and 3b or 6a and 6b consists.

As shown in FIG. 5, the two pole shoe segments 3 are arranged symmetrically with opposite rear surfaces and attached to the inside of a cylindrical cage 5 by means of support bodies 4. The support body 4 and the cylindrical cage 5 must consist of a material that transmits the magnetic flux, e.g. non-magnetic, stainless steel. The pole shoe segments 6 are arranged between the two spaced apart segments 3, with their arcuate sections

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6a are attached to the inside of the cylindrical cage 5. The pole shoe segments 3 and 6 are arranged in such a way that an imaginary line connecting the webs 6b of the segments 6 forms a tend the line connecting the middle of the segments 3 at a right angle det. As the pole piece arrangement in terms of the convergence adjustment surface of the color picture tube is located in such a way that the pair of segments 3 coincide with the direction of the vertical deflection, the mean electron beam R will pass through the center of a space Mn enclosed by segments 3 and 6, whereas the electron beams B and G pass through those from the left and right segments 3 and from the cylindrical cage 5 go through certain rooms.

When the pole piece arrangement described above is brought into the deflecting magnetic field, there is a distribution of the magnetic flux as shown in FIG. More precisely, the pole piece segments 3 bundle the magnetic flux VH for the vertical deflection in the center, so that the vertical deflection sensitivity of the central electron beam R is increased. This is caused by the low magnetic resistance between the opposite, flat sections 3a of the segments 3, whereby the evenly distributed magnetic flux VH is concentrated. Since the evenly distributed magnetic flux H _H for the horizontal deflection passes through the webs 6b of the two segments 6, it is weakly concentrated, so that the magnetic flux acting on the central electron beam R and the magnetic flux acting on the two outer electron beams B and G are equalized . Hence the distraction of the three

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Electron beams in the horizontal direction will be essentially the same as would be the case without the pole piece arrangement.

Consequently, with the pole piece arrangement according to the invention Grids as shown in Fig. 7 can be obtained instead of the grids shown in Figs. In Fig. 7 are the left and right grids remained unchanged, whereas the grids R along the top and bottom with the grids B and G coincide on the same side. Because according to the invention in the case of a color picture tube with three electron beam guns in an in-line arrangement, rasters as shown in FIG. 7 are obtained it is not necessary to provide vertical dynamic convergence. In addition, it is possible a horizontal dynamic convergence for the blue and green electron beams with respect to the red electron beam R using a symmetrical waveform current to be provided.

The two pairs of pole shoe segments 3 and 6 ensure a magnetic one Shielding that interferes with the central electron beam R from the magnetic flux of an external adjustment device (not shown) is prevented. This function of the pole piece arrangement will now be explained with reference to FIG.

8 shows the relationship between the static and the dynamic convergence and the pole piece arrangement according to the invention where on the left side a the functional principle of dynamic convergence and on the right side b de the static convergence

"-1o-

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- 1ο -

genz is shown. As can be seen from the figure, the static convergence is ensured by rotating the magnets M .., M_, M_ and M. to adjust the rarity and the density of the magnetic flux S _H running through the E-shaped magnetic cores of the convergence adjustment device 1, so that statically the outer electron beams (~ and B ") unit are brought to coincide with the middle electron beam B".

Dynamic convergence is provided by applying a current with a parabolic waveform from an external source E.CS. by a coil 8 of the convergence adjuster 1 is sent to create the magnetic flux D ^ which is blue and green

j brings electron beam B _ß and B into congruence with the middle, red j electron beam B. Since the external magnetic fluxes D i and Srr _{hardly influence the central electron beam B R} , the convergence can easily be adjusted in this way. Since the magnetic field is not shielded for the two outer electron beams, the power required for dynamic convergence can still be kept small. The size and configuration of the

jPole shoe segments 3 and 6 must be according to the outer course of the field for jthe convergence and the field profile of the deflection yoke can be varied

The convergence architecture created by the invention is both in the simple design, e.g. the design equipped with a saddle-like deflection yoke, as well as in the design very suitable with a large deflection angle (11o °).

As has been described in detail, in a color picture tube, in which the three electron guns in one plane

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are arranged and in which the dynamic and the static convergence is provided in the same plane, the deflection of the central electron beam (red, B _R ) in the vertical direction is increased by two pole shoe segments 3, with two other pole shoe segments 6 ensuring that the magnetic flux acts uniformly on the electron beams in question for the horizontal deflection. In addition, due to the lack of interference on the central electron beam due to the magnetic fluxes for dynamic and static convergence, the convergence of the color picture tube can easily be adjusted.

Thus, the present invention provides an improved color picture tube in which the adjustment of the convergence can be made even by inexperienced persons can be done easily and quickly.

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Claims (4)

Patent attorneys Dr. Ing.H. Negendank Dipl. Ing.H. Hay * - Dip! Phys-Dipl. Ing. E. Gr ₂₃ H, - Dipl. Ing. W ^ Hitachi Limited 8 München2, fclozartstrae za '' Telephone 558-586 ι 5-1,1-chome, Marunouchi Chiyoda-ku, Tokyo February 22, 1974 (Japan Lawyer File M-3oo3 Claims Iy color picture tube with three, arranged along a straight line Electron beam cannons and a device with which the static and dynamic convergence essentially in the the same plane for focusing the three electron beams can be adjusted to a point on the fluorescent screen of the color picture tube, characterized in that a pole piece arrangement located in the convergence setting plane is provided which has a first Pair of pole piece segments (3) and a second pair of pole piece segments (6) in a substantially perpendicular arrangement to one another has, and that the second pair of pole piece segments in the same direction as that of the vertical deflection of the electrons | - rays (B, G, R) is arranged. 2. Color picture tube according to claim 1, characterized in that the pole shoe segments (6) of the second pair have the shape of a T. and that the pole piece segments (3) of the first pair are concavely curved, the two pairs of pole piece segments are fixed in a cylindrical cage (5). -13- 409846/0681 3. color picture tube according to claim 2, characterized in that the; T-shaped pole shoe segments (6) have a curved section (6a) ¹ and a flat web (6bj) running at right angles thereto, and that the concave pole shoe segments (3) have a flat section (3a) and inclined sections ( 3b), wherein the flat webs lie on the same straight line and the flat sections of the concave pole shoe segments lie opposite one another on a line perpendicular to this straight line. 4. color picture tube according to claim 3, characterized in that the T-shaped and the concave pole shoe segments are made of one material consist of high permeability and that the cylindrical cage is made of a material that transmits the magnetic flux 409846/0681 JH Blank page